[3] Novoselov K, Geim A, Morozov S, et al. Two-gimensional gas of massless dirac fermions in graphene [J].Nature,2005,438(7065):197-200.

[4] Shin H, Kim K, Benayad A, et al. Efficient reduction of graphite oxide by sodium borohydride and its effect on electrical conductance[J].Advanced Functional Materials,2009,19(12):1987-1992.

[5] Sutter P. Epitaxial graphene: how silicon leaves the scene[J].Nature Materials,2009,8(3):171-172.

[6] Gulotty R, Das S, Liu Y, et al. Effect of hydrogen flow during cooling phase to achieve uniform and repeatable growth of bilayer graphene on copper foils over large area[J].Carbon,2014,77(10): 341-350.

[7] Li X, Magnuson C, Venugopal A, et al. Large-area graphene single crystals grown by low-pressure chemical vapor deposition of methane on copper[J].Journal of The American Chemical Society,2011,133(9):2816-2819.

[9] Su D, Ren M, Li X, et al. Synthesis of graphene by chemical vapor deposition: effect of growth condition [J].Journal of Nanoscience and Nanotechnology,2013,13(10):6471-6484.

[10] Huet B, Raskin J. Role of Cu foil in-situ annealing in controlling the size and thickness of CVD graphene domains[J].Carbon,2018,129:270-280.

[11] Shi Y, Hao Y, Wang D, et al. Effects of the flow rate of hydrogen on the growth of graphene [J].International Journal of Minerals, Metallurgy and Materials,2015,22(1):102-110.

[12] Wang Z, Chen Y, Li P, et al. Effects of methane flux on structural and transport properties of CVD-grown graphene films[J].Vacuum,2012,86(7):895-898.

[13] Li X, Cai W, An J, et al. Large-area synthesis of high-quality and uniform graphene films on copper foils [J].Science,2009,324(5932):1312-1314.

[14] Tan K, Reeves S, Hashemi N, et al. Graphene as flexible electrode: review of fabrication approaches [J].Journal of Materials Chemistry A,2017,5(34):1-66.

[15] Zhang Y, Zhang L, Kim P, et al. Vapor rapping growth of single-crystalline graphene flowers: synthesis, morphology, and electronic properties[J].Nano Letters,2012,12(6):2810-2816.

[16] Shi Y, Wang D, Zhang J, et al. Fabrication of single-crystal few-layer graphene domains on copper by modified low-pressure chemical vapor deposition[J].CrystEngComm,2014,16(32):7558-7563.

[17] Shi Y, Wang D, Zhang J, et al. Synthesis of multilayer graphene films on copper by modified chemical vapor deposition[J].Materials and Manufacturing Processes,2014,30(6):711-716.

[18] Su D, Ren M, Li X, et al. Synthesis of graphene by chemical vapor deposition: effect of growth conditions [J].Journal of Nanoscience and Nanotechnology,2013,13(10):6471-6484.

[19] Ferrari A. Raman spectrum of graphene and graphene layers[J].Physics Review Letter,2006,97(18):187401.

[20] Chen S, Cai W, Ruoff R, et al. Synthesis and characterization of large-area graphene and graphite films on commercial Cu-Ni alloy films[J].Nano Letters,2011,11(9):3519-3525.